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Curriculum Vita 1. Personal Data
a. Name and Title
Dong Qian, Associate Professor of Mechanical Engineering
Department of Mechanical Engineering
800 West Campbell Road, EC38
University of Texas at Dallas, Dallas, TX 75080-3021
Assistant Editor, Journal of Computational Mechanics (2012- )
Tel.: (972) 883-4890; Fax: (972) 883-4659
E-mail: dongqian.work@gmail.com (preferred) or dong.qian@utdallas.edu
Web-page: me.utdallas.edu
c. Education
Ph.D. Mechanical Engineering, 2002
Northwestern University, Evanston, IL 60208, USA
Thesis Advisor: Wing Kam Liu
M.S. Civil Engineering, 1998
University of Missouri-Columbia, MO 65211, USA.
Thesis Advisor: Zhen Chen
B.S. Bridge Engineering, 1994
Tongji University, Shanghai, China.
d. Professional Appointments
09/12-present Associate Professor (Tenured), Department of Mechanical Engineering, University of
Texas at Dallas, TX 75080.
07/10-08/12 Associate Professor (Tenured), School of Dynamic Systems, University of Cincinnati,
OH 45221.
09/08-07/10 Associate Professor (Tenured), Department of Mechanical Engineering, University of
Cincinnati, OH 45221.
9/02-08/08 Assistant Professor, Department of Mechanical Engineering, University of Cincinnati,
Cincinnati, OH 45221.
9/98-8/02 Teaching and Research Assistant, Department of Mechanical Engineering, Northwestern
University, Evanston, IL 60208.
9/96-8/98 Research Assistant, Department of Civil and Environmental Engineering, University of
Missouri-Columbia, Columbia, MO 65211.
9/94-8/96 Research Assistant, Department of Bridge Engineering, Tongji University, Shanghai,
China.
e. Honors and Awards
University of Cincinnati College of Engineering Distinguished Researcher Award (2012)
ICACM Young Investigator (awarded at 3rd
International Symposium on Computational
Mechanics) (2011)
ASEE Air Force Summer Faculty Fellowship (2012, 2011, 2008, 2006, competitively
reviewed)
Summer Faculty Scholar, Peking University (2010)
Qian-CV-2013 1
College of Engineering Distinguished Researcher Award (2010)
Summer Faculty Fellowship, Air Force Research Lab (2009, 2010)
Nominated for University of Cincinnati Sigma-Xi Research Recognition Award (2009)
Nominated for College of Engineering Wandmacher Teaching Award (2009)
College of Engineering Research Award for Junior Faculty (2008)
National Science Foundation Summer Institute Travel Fellowship (2003,2004,2005)
Sixth World Congress on Computational Mechanics Travel Award (2004)
Invited member of the US delegation to attend US-China Workshop on multiscale model-
based simulation in mechanics and materials engineering (2004)
Seventh US Congress on Computational Mechanics Travel Fellowship (2003)
Second MIT Computational Fluid and Solid Mechanics Conference Fellowship (2003)
Dissertation Year Fellowship (2001-2002)
Tull Fellowship (2000-2001)
f. Teaching and Research Interests
Research Interests:
Computational solid mechanics, multiscale modeling and simulation techniques.
Mechanics and mechanical application of multifunctional materials in energy- and bio-
related applications.
Meshfree and particle methods, Linear and nonlinear finite element methods.
Surface engineering, fatigue life analysis, residual stress engineering
Biomedical implant
Teaching Interests:
Introductory courses in theoretical and applied mechanics (Statics, Dynamics and Mechanics
of Materials).
Continuum mechanics, constitutive modeling of materials (Elasticity, Plasticity and Damage
theory with computational implementations).
Atomistic simulation methods including molecular dynamics, Monte Carlo methods and
quantum mechanical approaches.
Meshfree and particle methods, linear and nonlinear finite element methods.
Multiscale and multiphysics methods.
2. Scholarly Research
a. Publications
Notes: Students’ names are marked in bold. Citation numbers are based on web of science, scopus,
and google scholar as of July 1st, 2012, whichever has more.
1) Books authored or edited
Li, S. and D. Qian eds, “Multiscale Simulations and Mechanics of Biological Materials”,
Wiley, 2013. 470p.
2) Papers Published or in press in Peer-Refereed Journals (total ~ 2000 citations)
1 Yao, J., G. R. Liu, D. Qian, C.-L. Chen, and X. Xu, "A moving-mesh gradient
smoothing method for compressible CFD problems," Mathematical models and methods
Qian-CV-2013 2
in applied sciences, vol. 23, pp. 273-305, 2013. Citation [1]
2 Zhou, Z., D. Qian, V. K. Vasudevan, and R. S. Ruoff, "Folding mechanics of bi-layer
graphene sheet," Nano LIFE, vol. 02, p. 1240007, 2012.
3 Zhou, Z., S. Bhamare, G. Ramakrishnan, S. R. Mannava, K. Langer, Y. H. Wen, D.
Qian, and V. K. Vasudevan, "A Study of Thermal Relaxation of Residual Stress in Laser
Shock Peened Ti-6Al-4V Alloy," Surface & Coatings Technology, vol. 206, pp. 4619-
4627, 2012.
4 Kanou, S., O. Takakuma, S. R. Mannava, D. Qian, V. K. Vasudevan, and H. Soyama,
"Effect of the Impact Energy of Various Peening Techniques on the Induced Plastic
Deformation Region " Journal of Materials Processing Technology, vol. 212, pp. 1998-
2006, 2012.
5 Gill, A. S., Z. Zhou, U. Lienert, J. Almer, D. F. Lahrman, S. R. Mannava, D. Qian, and
V. K. Vasudevan, "High spatial resolution, high energy synchrotron x-ray diffraction
characterization of residual strains and stresses in laser shock peened Inconel 718SPF
alloy," Journal Of Applied Physics, vol. 111, Apr 15 2012. Citation [2].
6 Yang, Y., S. Chirptukar, D. N. Alpert, T. Eason, M. Spottswood, and D. Qian,
"Enriched space-time finite element method: A new paradigm for multiscaling from
elastodynamics to molecular dynamics," International Journal For Numerical Methods
In Engineering, 92(2), 115-140, 2012. Citation [1].
7 Z. Zhou, V. K. Vasudevan, and D. Qian, "Energy Loss in Carbon Nanotube Beam
Oscillators due to Anelastic Relaxation," Journal of Engineering Materials and
Technology, vol. 134, 2012. Citation [1].
8 Zhou, Z., A. S. Gill, D. Qian, S. R. Mannava, K. Langer, Y., Wen and V. K.
Vasudevan, "A finite element study on thermal relaxation of residual stress in laser
shock peened IN718 superalloy". International Journal of Impact Engineering, 38:590-
596, 2011. Citation [5].
9 S. R. Mannava, D. Qian, V. K. Vasudevan, S. Bhamare, A. Jetter, L. Felon, D.
Kirschman, D. Lahrman, and R. Tenaglia, "Application of Laser Shock Peening for
spinal implant rods", International Journal of Structural Integrity, 2(1):101-113, 2011.
Citation [6].
10 Qian, D., M. Phadke, E.G. Karpov, and W.K. Liu, "A domain-reduction approach to
bridging scale simulation of one dimensional nanostructures", Computational
Mechanics, 47(1):31-47, 2011. Citation [2].
11 Zhou, Z., D. Qian, and M.F. Yu, "Energy dissipation and intrinsic loss in single walled
carbon nanotubes due to anelastic relaxation". Journal of Nanoscience and
Nanotechnology, 11(2):1267-1272, 2011. Citation [1].
12 Zhou, Z., D. Qian, and M.F. Yu, "A Computational Study on the Transversal Visco-
elastic Properties of Single Walled Carbon Nanotubes and Their Relation to The
Damping Mechanism". Journal Of Computational And Theoretical Nanoscience, 8(5),
820-830. 2011. Citation [2].
13 Liu, W.K., D. Qian, S. Gonella, S.F. Li, W. Chen, and S. Chirptukar, Multiscale
Qian-CV-2013 3
methods for mechanical science of complex materials: bridging from quantum to
stochastic multiresolution continuum. International Journal For Numerical Methods In
Engineering, 83(8-9), p1039-1080, 2010. Citation [18].
14 Karpov, E.G., S. Chaichenets, W.K. Liu, and D. Qian, Mechano-kinetic coupling
approach for materials with dynamic internal structure. Philosophical Magazine Letters,
90(7): p. 471-480, 2010. Citation [4].
15 Kulkarni, M., D. Carnahan, K. Kulkarni, D. Qian, and J.L. Abot, Elastic Response of a
Carbon Nanotube Fiber Reinforced Polymeric Composite: A Numerical and
Experimental Study. Composites Part B: Engineering, 41(5): p. 414-421, 2010. Citation
[7].
16 Qian, D., P. He and D. Shi, “A molecular mechanics study on the effect of surface
modification on the interfacial properties in carbon nanotubes/polystyrene
nanocomposites”, International Journal of Multiscale Computational Engineering,
8(2): p 151-165. 2010.
17 Qian, D. and W. K. Liu, “Advances in multiscale and multiphysics methods”, 8(2): p
VII-VIII, International Journal of Multiscale Computational Engineering, 2010.
18 Qian, D., W. K. Liu and Q. Zheng, “Concurrent quantum/continuum coupling analysis
of nanostructures” Computer Methods in Applied Mechanics and Engineering, 197(41-
42): p. 3291-3323, 2008. Citation [15].
19 Qian, D., Q. Zheng and R. S. Ruoff “multiscale simulation of nanostructures based on a
discrete hyper-elastic approach” Computational Mechanics, 42(4): p. 557-567, 2008.
Citation [0].
20 Qian, D., W. K. Liu “Special issue on Multiscale Methods for Nano- and Bio-
Mechanics and Materials” Computational Mechanics, 42(4): p. 483-484, 2008. Citation
[0].
21 Qian, D., T. Eason, S. F. Li and W. K. Liu, “Meshfree simulation of failure modes in
thin cylinder subjected to combined loads of internal pressure and localized heat”
International Journal for Numerical Method in Engineering, 76: 1159-1184, 2008.
Citation [8].
22 Liu, Y. J., N. Nishimura, D. Qian, N. Adachi, Y. Otani and V. Mokashi, “A boundary
element method for the analysis of CNT/polymer composites with a cohesive interface
model based on molecular dynamics” Engineering Analysis with Boundary
Elements, 32(4): p. 299-308, 2008. Citation [19].
23 Liu, W. K., S. Jun and D. Qian, “Computational nanomechanics of materials” Journal
of Computational and Theoretical Nanoscience, 5(5): p. 970-996, 2008. Citation [21].
24 Chirputkar, S. and D. Qian, “Coupled Atomistic/Continuum Simulation based on
Extended Space-Time Finite Element Method” Computer Modeling in Engineering and
Sciences, 24(2-3): p. 185-202, 2008. Citation [13].
25 Mokashi, V., D. Qian, and Y.J. Liu, “A study on the tensile response and fracture in
carbon nanotube-based composites using molecular mechanics” Composites science
and technology, 67(3-4): p. 530-540, 2007. Citation [32].
26 Gao, Y., P. He, J. Lian, L.M. Wang, D. Qian, J. Zhao, W. Wang, M.J. Schulz, J. Zhang,
Qian-CV-2013 4
X.P. Zhou, and D.L. Shi, “Improving the mechanical properties of polycarbonate
nanocomposites with plasma-modified carbon nanofibers” Journal of Macromolecular
Science Part B-Physics, 45(4): p. 671-679, 2006. Citation [17].
27 Qian, D. and R.H. Gondhalekar, “A constitutive model for nanomaterials based on
spatial secant” International Journal For Multiscale Computational Engineering, 4(1):
p. 71-94, 2006. Citation [2].
28 Karpov, E.G., H. Yu, H.S. Park, W.K. Liu, Q.J. Wang, and D. Qian, “Multiscale
boundary conditions in crystalline solids: Theory and application to nanoindentation”
International Journal Of Solids And Structures, 43(21): p. 6359-6379, 2006. Citation
[37].
29 Liu, W.K., H.S. Park, D. Qian, E.G. Karpov, H. Kadowaki, and G.J. Wagner, “Bridging
scale methods for nanomechanics and materials” Computer Methods In Applied
Mechanics And Engineering, 195(13-16): p. 1407-1421, 2006. Citation [93].
30 He, P., Y. Gao, J. Lian, L.M. Wang, D. Qian, J. Zhao, W. Wang, M.J. Schulz, X.P.
Zhou, and D.L. Shi, “Surface modification and ultrasonication effect on the mechanical
properties of carbon nanofiber/polycarbonate composites” Composites Part A-Applied
Science And Manufacturing, 37(9): p. 1270-1275, 2006. Citation [43].
31 Qian, D. and R.H. Gondhalekar, “A Virtual Atom Cluster approach to the mechanics
of nanostructures” International Journal for multiscale computational engineering,
2(2): p. 277-289, 2004. Citation [24].
32 Liu, W.K., D. Qian, and M.F. Horstemeyer, “Special issue on multiple scale methods
for nanoscale mechanics and materials” Computer Methods in Applied Mechanics and
Engineering, 193(17-20): p. III-V, 2004. Citation [10].
33 Qian, D., G.J. Wagner, and W.K. Liu, “A multiscale projection method for the analysis
of carbon nanotubes” Computer Methods in Applied Mechanics and Engineering,
193(17-20): p. 1603-1632, 2004. Citation [144]. (listed as the top 25 cited paper
published in the last 5 years by the journal in 2009)
34 Ruoff, R.S., D. Qian, and W.K. Liu, “Mechanical properties of carbon nanotubes:
theoretical predictions and experimental measurements” Comptes Rendus Physique,
4(9): p. 993-1008, 2003. Citation [230].
35 Qian, D., W.K. Liu, and R.S. Ruoff, “Load transfer mechanism in carbon nanotube ropes” Composites Science and Technology, 63(11): p. 1561-1569, 2003. Citation [116].
36 Qian, D., W.K. Liu, S. Subramoney, and R.S. Ruoff, “Effect of interlayer potential on mechanical deformation of multiwalled carbon nanotubes” Journal of Nanoscience and Nanotechnology, 3(1-2): p. 185-191, 2003. Citation [40].
37 Qian, D., G.J. Wagner, W.K. Liu, M.F. Yu, and R.S. Ruoff, “Mechanics of carbon
nanotubes” Applied Mechanics Reviews, 55(6): p. 495-533, 2002. Citation [715].
(listed as the top 10 downloaded paper by the journal from 2007 to 2009)
38 Yu, M.F., M.J. Dyer, J. Chen, D. Qian, W.K. Liu, and R.S. Ruoff, “Locked twist in multi-walled carbon nanotube ribbons” Physical Review B, Rapid Communications, 64: p. 241403R, 2001. Citation [42].
39 Qian, D., W.K. Liu, and R.S. Ruoff, “Mechanics of C60 in nanotubes” Journal of
Qian-CV-2013 5
Physical Chemistry B, 105: p. 10753-10758, 2001. Citation [170].
40 Li, S.F., W.K. Liu, D. Qian, P.R. Guduru, and A.J. Rosakis, “Dynamic shear band propagation and micro-structure of adiabatic shear band” Computer Methods in Applied Mechanics and Engineering, 191(1-2): p. 73-92, 2001. Citation [44].
41 Song, N., D. Qian, J. Cao, W.K. Liu, and S.F. Li, “Effective models for prediction of springback in flanging” Journal of Engineering Materials and Technology-Transactions of the Asme, 123(4): p. 456-461, 2001. Citation [43].
42 Li, S.F., D. Qian, W.K. Liu, and T. Belytschko, “A meshfree contact-detection algorithm” Computer Methods in Applied Mechanics and Engineering, 190(24-25): p. 3271-3292, 2001. Citation [45].
43 Hao, S., W.K. Liu, and D. Qian, “Localization-induced band and cohesive model” Journal of Applied Mechanics-Transactions of the ASME, 67(4): p. 803-812, 2000. Citation [32].
44 Chen, Z., D. Qian, and X. Xin, “A study of localization problems based on the transition between governing equations” International Journal for Advances in Structural Engineering, 2(4): p. 291-306, 1998. Citation [1].
45 Chen, Z., D. Qian, and Y. Zhang, “An investigation on the transition from creep damage to creep fracture” Fatigue and Fracture of Engineering Materials and Structures, 21: p. 641-649, 1998. Citation [0].
2) Book Chapters
1 Qian, D. and S. Chirputkar, “Concurrent approach to lattice dynamics based on
extended space-time finite element method” in Handbook of Micromechanics and
Nanomechanics, ed. By S. Li and X-L Gao, Pan Stanford Publishing (2013)
2 Bhamare, S., S.R. Mannava, D. Kirschman, V. K. Vasudevan, and D. Qian, “Design of
dynamic and fatigue strength enhanced orthopedic implants” in Multiscale Simulations
and Mechanics of Biological Materials, ed. By S. Li and D. Qian, West Sussex (UK):
Wiley (2013)
3 Qian, D., K. Nagarajan, S.R. Mannava, and V.K. Vasudevan, “Continuum-based and
cluster models for nanomaterials” in Multiscaling in molecular and continuum
mechanics: scaling in time and size from macro to nano, G.C. Sih, Editor., Springer
science, p241-257, ISBN: 1-4020-5061-5, 2006.
4 Liu, W.K., S. Jun, and D. Qian, “Computational nanomechanics of materials”, in
Handbook of theoretical and computational nanotechnology, M. Reith and W.
Schommers, Editors, American Scientific Publishers, ISBN: 1-58883-042, 2006.
5 Liu, W.K., H.S. Park, D. Qian, E.G. Karpov, H. Kadowaki, G.J. Wagner, and S. Li,
“Bridging Scale Mechanics and Materials,” in Finite Element Methods: 1970’s and
Beyond, International Center for Numerical Methods and Engineering (CIMNE), ISBN:
84-95999-49-8, 72-88, 2004.
6 Qian, D., G.J. Wagner, W.K. Liu, M.F. Yu, and R.S. Ruoff, “Mechanics of carbon
nanotubes”, in Handbook of nanoscience, engineering and technology, W.A.I. Goddard,
et al. editors., CRC Press LLC: Boca Raton, ISBN: 0-8493-1200-0, 2002.
7 Zhang, L., W.K. Liu, S. Li, D. Qian, and S. Hao, “Multi-Scale Meshfree Particle
Qian-CV-2013 6
Methods”, in Springer Lecture Notes on Computational Science and Engineering
Series, Griebel, Michael; Schweitzer, Marc A. Editors, ISBN: 978-3-540-43891-5,
2002.
4) Papers Published in Refereed Proceedings
1 Zhou, Z. and D. Qian, “Viscoelastic properties of low-dimensional carbon
nanostructures and their relation to damping”, 16th
US National Congress of Theoretical
and Applied Mechanics, State College, Pennsylvania, 2010.
2 Qian, D., “A concurrent approach to electron-mechanical coupling in nanocrystallines”,
16th
US National Congress of Theoretical and Applied Mechanics, State College,
Pennsylvania, 2010.
3 Qian, D., Q. Zheng and Z. Zhou, “A computational study of viscoelastic behavior of
single-walled carbon nanotubes based on nanoindentation”, Proceedings of NSF CMMI
Engineering Research and Innovation Conference, Honolulu, HI, 2009
4 Qian, D., Q. Zheng, “Multiscale Modeling and Simulation of Graphene Nanoplatelets
based on a discrete elasticity approach”, Proceedings of NSF CMMI Engineering
Research and Innovation Conference, Honolulu, HI, 2009.
5 Qian, D., Q. Zheng and R. S. Ruoff, “Modeling of low-dimensional carbon
nanostructures using a discrete elasticity approach”, Proceedings of NSF CMMI
Engineering Research and Innovation Conference, Knoxville, TN, 2008.
6 Qian, D., S. Chirputkar and M. F. Yu, “A space-time approach to coupled
atomistic/continuum simulation”, Proceedings of NSF CMMI Engineering Research
and Innovation Conference, Knoxville, TN, 2008.
7 Qian, D. and Q. Zheng,”Coarse-grained modeling and simulation of nanoscale systems
based on discrete hyper-elastic model”, Proceedings of ASME Internatinal Mechanical
Engineering Congress and Exposition, Paper no. 2008-68088, Boston, MA, 2008.
8 Qian, D. and Q. Zheng, “The effects of curvature, relaxation and mechanical
deformation on the electronic properties of single-walled carbon nanotubes”,
Proceedings of ASME Internatinal Mechanical Engineering Congress and Exposition,
Paper no. 2008-67606, Boston, MA, 2008.
9 Qian, D. and S. Chirputkar, “Multiscale modeling of nanoscale systems based on
space/time formulation”, Proceedings of ASME Internatinal Mechanical Engineering
Congress and Exposition, Paper no. 2008-67591, Boston, MA, 2008.
10 Gondhalekar, R.H. and D. Qian, “Application of a discrete model for the concurrent
simulation of nanostructures”, Proceedings of the 46th AIAA/ASME/ASCE/AHS/ASC
Structures, Structural Dynamics and Materials Conference, AIAA paper no. 2005-1927,
2005.
11 Liu, Y. J., N. Nishimura and D. Qian, “Large-scale modeling of CNT/polymer
composites based on a rigid-inclusion model and a cohesive interface condition using
the BEM and MD”, in: Proceedings of the Sixth World Congress on Computational
Mechanics (WCCM VI,), edited by Z. H. Yao, M. W. Yuan and W. X. Zhong, CD-
ROM, Paper #198, Tsinghua University Press, Beijing, China, 2004.
Qian-CV-2013 7
12 Qian, D. and W.K. Liu, “A multiscale meshfree method for the mechanical analysis of
low dimensional nanostructures”, Technical Proceedings of the 2003 Nanotechnology
Conference and Trade Show, Edited by M. Laudon and B. Romanowicz,
Computational Publications, Vol.2, p.550-553, 2003.
13 Qian, D. “ Multiscale meshfree method for the analysis of carbon nanotube-based
materials”, Proceeding of the Second MIT Conference on Computational Fluid and
Solid Mechanics, Edited by K. J. Bathe, Elsevier, Vol.2, 2101-2103, 2003.
14 Liu, W. K., S. Hao, F.J. Vernerey, H. Kadowaki, H. Park, and D. Qian, “Multiscale
analysis and design for heterogeneous systems”, in VII International Conference on
Computational Plasticity (COMPLAS VII). 2003. Barcelona, Spain: CIMNE.
15 Qian, D. and Liu W.K. “A multiscale meshfree method for the mechanical analysis of
low-dimensional nanostructures”, Technical Proceedings of the Nanotech 2003
Conference, Vol.2, 550-553, Computational Publications, 2003.
16 Qian, D., W.K. Liu and R.S. Ruoff, “Bent and Kinked Multi-shell Carbon Nanotubes – treating the interlayer potential more realistically”, Proceedings of the 43
rd
AIAA/ASME/ASCE/AHS Structures, Structural Dynamics, and Materials Conference, AIAA paper no. 2002-1428, 2002.
17 Ruoff, R.S., D. Qian, W.K. Liu, W.Q. Ding, X. Chen, D. Dikin, “What kind of carbon nanofiber is ideal for structural applications?”, Proceedings of the 43
rd
AIAA/ASME/ASCE/AHS Structures, Structural Dynamics, and Materials Conference, AIAA paper no. 2002-1522, 2002.
18 Liu, W.K., D. Qian, S.F. Li, and J. Cao, “Simulation of metal forming by a meshless contact algorithm”, Proceedings of 2000 SAE Conference, SAE technical paper series no. 2000-01-1110, SAE, Inc., 2000.
19 Qian, D., X. Xin, and Z. Chen, “Computer simulation of failure evolution as a diffusion
Process”, Proceedings of the 12th ASCE Engineering Mechanics Conference, edited by
H. Murakami and J.E. Luco, La Jolla, CA, pp. 118-121, 1998.
5) Conference Presentations
1 Zhou, Z. and D. Qian, “Energy dissipation in graphitic nanostructures”, 2012 ASME
International Mechanical Engineering Congress and Exposition, Houston, TX,
November 9-15, 2012.
2 Bhamare, S., T. Eason, G. R. Liu, V. K. Vasudevan, S. R. Mannava and D. Qian, “A
multi-temporal scale method for the prediction of fatigue failure”, 2012 ASME
International Mechanical Engineering Congress and Exposition, Houston, TX,
November 9-15, 2012.
3 Qian, D., “An adaptive bridging scale simulation approach to lattice dynamic crack”,
2012 ASME International Mechanical Engineering Congress and Exposition, Houston,
TX, November 9-15, 2012.
4 Qian, D., Z. Zhou, J. Zhang and J. M. Zuo, “Crater-like Landscape in Graphene Sheets”,
2012 ASME International Mechanical Engineering Congress and Exposition, Houston,
TX, November 9-15, 2012.
5 Qian, D., Z. Yin, J. Russo, S. R. Mannava and V. K. Vasudevan, “A surface
Qian-CV-2013 8
engineering approach to improving the mechanical and corrosion properties of Mg
alloys”, 2012 ASME International Mechanical Engineering Congress and Exposition,
Houston, TX, November 9-15, 2012.
6 Qian, D., Z. Zhou and S. Bhamare, “Ductile fracture prediction”, 2012 ASME
International Mechanical Engineering Congress and Exposition, Houston, TX,
November 9-15, 2012.
7 Qian, D. and Z. Zhou, “Computational Characterization of Energy dissipation in
graphitic nanostructures”, 22nd
International Workshop on Computational Mechanics of
Materials (IWCMM XXII), Baltimore, MD, September 24-26, 2012. 8 Chirputkar S. and D. Qian, “Simulation of lattice dynamic fracture based on extended
space-time fem and bridging scale method”, 22nd
International Workshop on
Computational Mechanics of Materials (IWCMM XXII), Baltimore, MD, September
24-26, 2012. 9 Chirputkar S. and D. Qian, “Coupled atomistic-continuum simulations of lattice
dynamic fracture based on extended space-time FEM”, International Conference on
Advances in Computational Mechanics (ACOME), Ho Chi Minh City, Vietnam, August
12-16, 2012. 10 Bhamare, S., D. Qian and T. Eason, “High Cycle Fatigue Simulation using Extended
Space-Time Finite Element Method Coupled with Continuum Damage Mechanics”, NU
2012 Summer Workshop on Computational Engineering and Science, Evanston, IL,
July 22-13, 2012. 11 Qian, D. and R. Cheerkapally, “Structural transformations and deformation mechanism
in titanium nanowires” NU 2012 Summer Workshop on Computational Engineering and
Science, Evanston, IL, July 22-13, 2012. 12 Qian, D. “Multiscale Modeling of Buckling in Carbon Nanostructures”, 2011 ASME
IMECE conference, Denver, CO, November 15th
, 2011.
13 Qian, D., “Coupled Quantum/Continuum Simulation of Size and Surface Effects in
Nanostructured Materials”, 2011 ASME IMECE conference, Denver, CO, November
15th
, 2011.
14 Qian, D., and S. Chirputkar, “Multiscale Simulation for Lattice Fracture based on
Enriched Space-Time FEM”, 2011 ASME IMECE conference, Denver, CO, November
15th
, 2011.
15 Qian, D. and Z. Zhou, “A Study on the Damping and Anelastic Relaxation in Low-
dimensional Carbon Nanostructures”, 2011 ASME IMECE conference, Denver, CO,
November 17th
, 2011.
16 Qian, D., V. K. Vasudevan, S. R. Mannava, Z. Zhou, S. Bhamare, A. Gill, G.
Ramakrishna, “Thermal Relaxation of Residual Stresses in Laser Shock Peened IN718
and Ti‐6Al‐4V Alloys: Experiments and Finite Element Modeling ”, 3rd
International
Conference on Laser Shock Peening, Osaka, Japan, October 11-14, 2011.
17 Qian, D. “Modeling of Interfaces in Concurrent Quantum-mechanical Simulation of
Nanostructures”, 11th
US Congress on Computational Mechanics, Minneapolis, MN,
July 25th
-29th
, 2011.
18 Yang, Y., T. Eason and D. Qian, “An Enriched Space-Time FEM for Nonlinear
Continuum Systems”, 11th
US Congress on Computational Mechanics, Minneapolis,
MN, July 25th
-29th
, 2011.
Qian-CV-2013 9
19 Chirputkar S. and D. Qian, “Coupled Atomistic-Continuum Simulation of Lattice
Fracture Based on Extended Space-Time FEM”, 11th
US Congress on Computational
Mechanics, Minneapolis, MN, July 25th
-29th
, 2011.
20 Qian, D. “Coarse Grained Modeling of Wrinkling and Crumpling in Low-dimensional
Carbon Nanostructures”, 2011 ASME McMat Conference, Chicago, May 31st, 2011.
21 Qian, D. “Concurrent modeling of localized effects due to electron-mechanical coupling
in nanocrystallines”, 2011 ASME McMat Conference, Chicago, May 30th
, 2011.
22 Qian, D., and Z. Zhou, “Energy Dissipation in Low-dimensional Carbon Nanostructures
and Their Relation to Anelastic Relaxation”, 2011 ASME McMat Conference, Chicago,
May 31st, 2011.
23 Qian, D., “ A coupled electron-mechanical model for low-dimensional carbon
nanostructures”, IUTAM symposium on Surface Effects in the Mechanics of
Nanomaterials and Heterostructures, Beijing, China, August 8-12, 2010.
24 Zhou, Z. and D. Qian, “Visco-elastic properties of low-dimensional carbon
nanostructures and their relation to damping”, 16th
US National Congress on Theoretical
and Applied Mechanics Conference, State College, PA, June 27-July 2, 2010.
25 Qian, D., “ Concurrent quantum-mechanical coupling in low-dimensional carbon
nanostructures”, 16th
US National Congress on Theoretical and Applied Mechanics
Conference, State College, PA, June 27-July 2, 2010.
26 Qian, D. and Z. Zhou, “Visco-elastic properties of carbon nanotubes and their relation to
damping”, SEM 2010 Annual Conference and Exposition, Indianapolis, IN, June 7-10,
2010.
27 Qian, D., S. R. Mannava, V. K. Vasudevan and K. S. Langer, “A computational study
on material response in laser shock peening of Titanium and Nickel-based alloys”, 2nd
International Conference on Laser Shock Peening, San Francisco, CA, April 18-21,
2010.
28 Qian, D. and S. Chirputkar, “Simulation of nanoscale phenomena using extended
space/time finite element method and bridging scale boundary condition”, 2nd
International Symposium on Computational Mechanics, Hong Kong –Macau,
November 30th
– December 3rd
, 2009.
29 Qian, D., “Concurrent quantum-mechanical coupling in low-dimensional carbon
nanostructures”, 2nd
International Symposium on Computational Mechanics, Hong
Kong –Macau, November 30th
– December 3rd
, 2009.
30 Qian, D., “Concurrent moldeing of electron-mechanical coupling in nanocrystallines”,
ASME International Mechanical Engineering Congress and Exposition, Lake Buena
Vista, FL, November 16th
, 2009.
31 Qian, D., Z. Zhou and Q. Zheng, “Computational Study of mechanics of damping in
carbon nanostructures”, ASME International Mechanical Engineering Congress and
Exposition, Lake Buena Vista, FL, November 16th
, 2009.
32 Qian, D. and S. Chirputkar, “Simulation of lattice fracture using extended space-time
finite element method”, ASME International Mechanical Engineering Congress and
Exposition, Lake Buena Vista, FL, November 16th
, 2009.
33 S. Chirputkar and D. Qian, “Coupled atomistic-continuum simulation of lattice
phenomena based on extended space-time FEM”, 10th
US congress on Computational
Qian-CV-2013 10
Mechanics, Columbus, Ohio, July 16-19th
, 2009.
34 Qian, D. and Q. Zheng, “A continuum approach to modeling nanoscale systems based
on discrete hyper-elastic model”, 10th
US congress on Computational Mechanics,
Columbus, Ohio, July 16-19th
, 2009.
35 Qian, D., “Multiscale concurrent simulation of electron-mechanical coupling in carbon
nanotubes”, 10th
US congress on Computational Mechanics, Columbus, Ohio, July 16-
19th
, 2009.
36 Qian, D., Q. Zheng and Z. Zhou, “A computational study of viscoelastic behavior of
single-walled carbon nanotubes based on nanoindentation”, Proceedings of NSF CMMI
Engineering Research and Innovation Conference, Honolulu, HI, June 22nd
-25th
, 2009
37 Qian, D., Q. Zheng, “Multiscale Modeling and Simulation of Graphene Nanoplatelets
based on a discrete elasticity approach”, Proceedings of NSF CMMI Engineering
Research and Innovation Conference, Honolulu, HI, June 22nd
– 25th
, 2009.
38 Qian, D. and Q. Zheng,”Coarse-grained modeling and simulation of nanoscale systems
based on discrete hyper-elastic model”, ASME Internatinal Mechanical Engineering
Congress and Exposition Conference, Boston, MA, 31st-November 6
th, 2008.
39 Qian, D. and Q. Zheng, “The effects of curvature, relaxation and mechanical
deformation on the electronic properties of single-walled carbon nanotubes”, ASME
Internatinal Mechanical Engineering Congress and Exposition Conference, Boston, MA,
October 31st-November 6
th, 2008.
40 Qian, D. and S. Chirputkar, “Multiscale modeling of nanoscale systems based on
space/time formulation”, Proceedings of ASME Internatinal Mechanical Engineering
Congress and Exposition, Boston, MA, 31st-November 6th, 2008.
41 Qian, D. and S. Chirputkar, “Multiscale simulation of atomistic system based on
extended space/time finite element method”, 8th
World Congress on Computational
Mechanics, Venice, Italy, June 30th
– July 5th
, 2008.
42 Qian, D. and S. Chirputkar, “Coupled atomistic-continuum simulation using X-
TFEM”, 1st American Academy of Mechanics Conference, New Orleans, June 18
th,
2008.
43 Qian, D., “Concurrent quantum/mechanical coupling analysis of nanostructures”,
University of Cincinnati/AFRL nanomaterial workshop, Cincinnati, April 29th
, 2008.
44 Qian, D., Q. Zheng and R. S. Ruoff, “Modeling of low-dimensional carbon
nanostructures using a discrete elasticity approach”, NSF CMMI Engineering Research
and Innovation Conference, Knoxville, TN, January 7-10, 2008.
45 Qian, D., S. Chirputkar and M. F. Yu, “A Space-time Approach to Coupled
Atomistic/Continuum Simulation”, NSF CMMI Engineering Research and Innovation
Conference, Knoxville, TN, January 7-10, 2008.
46 Qian, D., “Multiscale modeling of Electron-mechanical coupling in single-walled
carbon nanotubes”, 9th US National Congress on Computational Mechanics, San
Francisco, California, July 23-26, 2007.
47 Zheng, Q. and D. Qian “Multiscale simulation of low-dimensional carbon
nanostructures based on spatial secant model”, 9th US National Congress on
Qian-CV-2013 11
Computational Mechanics, San Francisco, California, July 23-26, 2007.
48 S. Chirputkar and D. Qian, “An Enriched Space-Time FEM Approach to Coupled
Atomistic-Continuum Simulation”, 9th US National Congress on Computational
Mechanics, San Francisco, California, July 23-26, 2007.
49 Qian, D. and S. Chirputkar, “A space/time framework for multiscale simulation of
nanomaterials”, ASME McMat 2007 Conference, University of Texas at Austin, June
5th, 2007.
50 Qian, D., K. Nagarajan, and Q. Zheng, “Multiphysics modeling and simulation of
nanoscale materials based on coupled atomistic/meshfree method”, (keynote talk), 7th
World Congress on Computational Mechanics, Los Angeles, CA, July 17-21, 2006.
51 Qian, D., “Coupled Electron-Mechanical Modeling and Simulation of Nanomaterials”,
8th
US Congress on Computational Mechanics, Austin, TX, July 25-27, 2005.
52 Phadke, M., S. Chirputkar, D. Qian, E. Karpov, W.K. Liu. “Interfacial Boundary
Condition in Multiscale Simulation of Nanomaterials”, 8th
US Congress on
Computational Mechanics, Austin, TX, July 25-27, 2005.
53 He, P., D. Shi and D. Qian, “Computational and Experimental Study of Mechanical
Properties of Plasma Functionalized Nanotubes Reinforced Polystyrene Composite”, 8th
US Congress on Computational Mechanics, Austin, TX, July 25-27, 2005.
54 Qian, D. “Modeling Quantum-mechanical Coupling Mechanism at Multiple Length
Scales with a Cluster Model”, 2005 Joint ASME/ASCE/SES Mechanics of Material
Conference, Baton Rouge, LA, June 1st, 2005.
55 Qian, D. and R.H. Gondhalekar, “Application of a discrete model for the concurrent
simulation of nanostructures.” 46th AIAA/ASME/ASCE/AHS/ASC Structures,
Structural Dynamics and Materials Conference, Austin, TX, April 18-21, 2005.
56 Qian, D., and R.H. Gondhalekar, “Multiscale Analysis of Electron-mechanical
interactions in Nanoscale Materials ”, 6th
World Congress on Computational Mechanics,
Beijing, China, Sep7-9, 2004.
57 Qian, D., and W.K. Liu, “A multiscale meshfree method for the analysis of nanoscale
materials”, 7th
US Congress on Computational Mechanics, Albuquerque, July 28-30,
2003.
58 Qian, D. “Multiscale meshfree method for the analysis of carbon nanotube-based
materials”, Second MIT Conference on Computational Fluid and Solid Mechanics,
Cambridge, MA, June 17-20, 2003.
59 Qian, D. and W.K. Liu, “A multiscale meshfree method for the mechanical analysis of
low-dimensional nanostructures”, Nanotech 2003 Conference, San Francisco, Februray
23-27, 2003.
60 Wagner, G. J., D. Qian, and W. K. Liu, “ Coupling of MD with continuum via a
bridging scale approach”, ASME International Mechanical Engineering Congress and
Exposition, New Orleans, LA, November 17-22, 2002.
61 Qian, D., W.K. Liu, and R. S. Ruoff, “Multiscale mechanics of carbon nanotubes”,
ASME International Mechanical Engineering Congress and Exposition, New Orleans,
Qian-CV-2013 12
LA, November 17-22, 2002.
62 Qian, D., W. K. Liu, and R. S. Ruoff, “Bent and Kinked Multi-shell Carbon Nanotubes – treating the interlayer potential more realistically”, 43
rd AIAA/ASME/ASCE/AHS
Structures, Structural Dynamics, and Materials Conference, Denver, Colorado, April 22-25, 2002.
63 Ruoff, R. S., D. Qian, W. K. Liu, W.Q. Ding, X. Chen, D. Dikin, “What kind of carbon nanofiber is ideal for structural applications? ”, 43
rd AIAA/ASME/ASCE/AHS
Structures, Structural Dynamics, and Materials Conference, Denver, Colorado, April 22-25, 2002.
64 Zhang, L., D. Qian, and J.H. Lee, “Computational and experimental analysis of
electroactuated nanofilaments”, the 6th
U.S. National Congress on Computational
Mechanics, Dearborn, MI, Aug.1-3, 2001.
65 Qian, D. and W.K. Liu, “Multiscale meshfree method”, the 6th
U.S. National Congress
on Computational Mechanics, Dearborn, MI, Aug.1-3, 2001.
66 Qian, D., W.K. Liu and R.S. Ruoff, “Mechanics of C60 inside nanotubes”, the 6th
U.S.
National Congress on Computational Mechanics, Dearborn, MI, Aug.1-3, 2001.
67 Qian, D., W.K. Liu, R.S. Ruoff and D. Tomanek, “ Mechanics of nanotube filled with
fullerenes”, SES 2000 Conference, Columbia, SC, Oct.23-25, 2000.
68 Hao, S., D. Qian, and P. Klein, “A multi-scale damage model”, 20th international
congress of IUTAM, Chicago, Aug.27-Sep.2, 2000.
69 Qian, D., S.F. Li, and J. Cao, “3D simulation of manufacturing process by a meshfree
contact algorithm”, 20th international congress of IUTAM, Chicago, Aug.27-Sep.2,
2000.
70 Liu, W.K., D. Qian, S.F. Li, and J. Cao, “Simulation of metal forming by a meshless contact algorithm”, 2000 SAE World Congress, Cobo Center, Detroit, MI, March 6-9, 2000.
71 Liu, W.K., D. Qian, S.F. Li, and J. Cao, “Simulation of contact in manufacturing process using meshfree method”, 2000 NSF Design and Manufacturing Research Conference, Vancouver, British Columbia, Canada, Jan 3-6, 2000.
72 Chen, Z., and D. Qian, “A semi-analytical solution scheme with jump conditions for the
evolution of shear banding”, 13th U.S. National Congress of Applied Mechanics,
Gainesville, FL, MA9, 1998.
6) Invited Talks/Seminars
1 Qian, D., “A modeling study of thermal relaxation effects of surface process”,
Department of Mechanical Engineering, Shanghai Jiaotong University, Shanghai, China,
August 16th
, 2012.
2 Qian, D., “Multiscale simulation of lattice dynamic fracture based on extended space-
time FEM”, Department of Mechanical Engineering, Northwestern Polytechnic
University, Xi’an, China, August 11th
, 2012
3 Qian, D., “Simulation of Dynamic Lattice Fracture Based on a Multiscale Space-Time
Method”, Department of Aerospace Engineering and Mechanics, Beijing University,
Qian-CV-2013 13
Peking, China, September 1st, 2011.
4 Qian, D., “Coupled Atomistic-Continuum Simulation of Dynamic Lattice Fracture based
on Extended Space-Time FEM”, Chinese Academy of Science, Peking, China, August
31st, 2011.
5 Qian, D., “A Multiscale Approach to Concurrent coupling in Low-dimensional Carbon
Nanostructures”, Department of Chemical and Materials Engineering, University of
Kentucky, Lexington, KY, April 6th
, 2011.
6 Qian, D., “A multiscale approach to electron-mechanical coupling in low-dimensional
carbon nanostructures”, Mechanical Engineering Department Seminar, IUPUI,
Indianapolis, IN, October 7th
, 2010.
7 Qian, D., “Energy Dissipation in the Dynamics of Carbon Nanotubes and Graphite
Nanoplatelets”, Tongji University, Shanghai, China, July 30th
, 2010.
8 Qian, D., and S. Chirputkar, “An extended space/time finite element approach to
interfacial boundary conditions in coupled atomistic/continuum simulation”, 5th
International workshop on meshfree method for PDEs, University of Bonn, Bonn,
Germany, August 17-19th
, 2009.
9 Qian, D., and S. Chirputkar, “Integrating continuum with atomistic simulations using
multiscale space/time FEM”, 2nd
DOE workshop on AtC Coupling method, Austin, TX,
April 2-3, 2007.
10 Qian, D., “Meshfree Simulation of Coupled Responses in Pressurized Thin Cylinder
subjected to Localized Heat”, Air Force Research Lab Technical Interchange Workshop,
Champaign, IL, February 6, 2007
11 Karpov, E. G., C. McVeigh, W.K. Liu, and D. Qian, “Bridging Scale and Domain
Reduction Approaches to Multiscale Computations”, 1st DOE workshop on AtC
Coupling method, Albuquerque, NM, March 20-21, 2006.
12 Qian, D., “Meshfree method and its application to solid mechanics problems”, General
Electric, Cincinnati, Ohio, September 14, 2005.
13 Qian, D., “Modeling Quantum-mechanical Coupling Mechanism at Multiple Length
Scales”, Sandia National Lab, Albuquerque, NM, December 8, 2004.
14 Qian, D., “Integrating quantum-mechanical descriptions at multiple scales”, Sandia
National Lab, Livermore, CA, November 10, 2004.
15 Qian, D. and R.H. Gondhalekar,“Continuum-based and Cluster Models for
Nanomaterials”, US-China NSF Workshop on Multi-Scale Model-Based Simulation in
Mechanics and Materials Engineering, Dalian, China, Sep.3-5, 2004.
16 Qian, D., “Mechanics of Carbon Nanotubes,” Department of Mechanical, Industrial and
Nuclear Engineering, University of Cincinnati, February 18, 2002.
17 Qian, D., “Mechanics of nanotubes filled with fullerenes.” Mechanics Club, Department
of Mechanical Engineering, Northwestern University, March 29, 2001.
3. Teaching and Mentorship
a. Classroom Teaching
a.1 At the University of Texas at Dallas
Qian-CV-2013 14
Computational Mechanics This is the first time that a course on computational mechanics has
been offered in the mechanical engineering department at UTD. It is a revision of the other courses
on finite element method that I have taught at the University of Cincinnati. The course has received
great feedback from the students and will be offered on a regular base.
a.2 At University of Cincinnati
Finite Element Technique I Developed a complete set of electronic learning package for the
course. The package includes: course syllabus, complete Powerpoint presentation files for all the
lectures, homework problems, lab assignments, online demo of computer codes.
Modeling and Simulation of Solids This is a new course for ME graduate students. This course
emphasizes on the link between material modeling and computational implementation. It is an
important addition to the current core curriculum for ME graduate students.
Advanced Finite Element Method This is a new course that evolved from the previous course
Finite Element Technique-III. The course content is completely updated with focus on the
nonlinear finite element method.
Machine Design and Analysis This is one of the core courses for ME undergraduate students. A
complete electronic learning package is established based on blackboard, which includes lecture
notes (in powerpoint format), notes on special topics, homeworks, quizzes, exams, in-class
exercises, projects and complete answers.
Design of Mechanical Components This is also one of the core courses for ME undergraduate
students. An integration of in-classroom teaching with real-life practice is emphasized throughout
the course. Engineers from local industry are invited to introduce their experience in machine
design. Student will have an opportunity in applying what they have learned in the final group
project and both presentation and report are required.
b. Graduate Student Advising
1) Full-time Ph.D. student graduated (all at the University of Cincinnati)
Student Name Graduation
Date
Thesis/Project Title Co-Advisor Current
Employment
Peng He Summer
2006
Thesis: Surface Modification and
Mechanics of Interfaces in Polystyrene
Nanocomposites Reinforced by
Carbon Nanotubes
Dr. Donglu
Shi
UES Inc.,
OH, USA
Shardool
Chirputkar
Summer
2011
Thesis: Bridging Scale Simulation of
Lattice Fracture and Dynamics using
Enriched Space-time Finite Element
Method
Siemens Inc.,
OH, USA
Sagar Bhamare Summer
2012
Thesis: High Cycle Fatigue Simulation
using Extended Space-Time Finite
Element Method Coupled with
Continuum Damage Mechanics
Innova
Engineering
Inc., Irvine,
CA
2)Full-Time Students in Progress:
At the University of Cincinnati
Qian-CV-2013 15
Ph.D. Student Name Date
Started
Co-Advisor Qualification
Exam
Full/Part Time
David Alpert 09/2009 October, 2009 Full Time
Raghavender Cheerkapally 06/2009 October, 2009 Full Time
At the University of Texas at Dallas
Ph.D. Student Name Date
Started
Co-Advisor Qualification
Exam
Full/Part Time
Wenwei Jiang (transferred from
University of Cincinnati)
01/2013 TBD Full Time
3) Full-time MS student graduated:(all at the University of Cincinnati)
Student Name Graduation
Date
Thesis/Project Title Co-Advisor Current
Employment
Vineet Mokashi Spring
2005
Thesis: Mechanical properties of
carbon nanotubes and nanocomposites
by molecular simulations
Dr. Yijun
Liu
UGS Corp.
(USA)
Sunnil Tanneru Spring
2005
Thesis: Stabilization technique in
meshfree method
Auto Research
Center, IN,
USA
Rohit H.
Gondhalekar
Spring
2005
Thesis: A constitutive model for
nanostructures based on spatial secant
UGS Corp.
(India)
Krishna
Nagarajan
Summer
2006
Project: Multiscale Simulation of a
FCC metals based on cluster models
Abaqus Inc.,
USA
Manas Phadke Summer
2006
Thesis: Interfacial Boundary
Conditions in Multiscale Simulation of
Nanomaterials
Cummings,
Inc. (India)
Shardool
Chirputkar
Winter
2007
Thesis: Coupled Atomistic/continuum
Simulation using Enriched Space-time
Finite Elements
Continuing
as Ph.D.
David Alpert Winter
2009 Thesis: Dynamic Analysis of Solid
Structures based on Space-Time
Finite Element Analysis
Continuing
as Ph.D.
Andrew Gordon Spring
2010
Thesis: Systematic Modeling of the
Laser Shock Peening Process with
Applications to Residual Stress and
Damage Prediction
Stress
Engineering
Corp., OH,
USA
Nepolean
Rajasekaran
Winter
2011
Thesis: A nonlinear constitutive model
for high density polyethylene at high
temperature
AES, Inc.
Harish Luckshetty Winter
2011
Thesis: Space-Time Finite Element
Analysis on Graphics Processing Unit
Computing Platform
Siemens Inc.
OH
Chinmay
Tophkhane
Spring
2012
Thesis: Residual stress prediction in
laser shock peening based on finite
element analysis and mechanical
threshold stress model
Chrysler
MI
Kanchan Kulkarni Fall 2012 Thesis: Experimental characterization Work in a
Qian-CV-2013 16
and finite element simulation of laser
shock peening induced surface residual
stresses using nanoindentation
company in
Detroit, MI
James Russo Fall 2012 Thesis: The effects of laser shock
peening on the residual stress and
corrosion characteristics of magnesium
alloy AZ91d for use as biodegradable
implants
Rolls-Royce,
IN
4) Full-time MS student in Progress (All at the University of Cincinnati):
M.S. Student Name Date
Started
Co-Advisor Thesis/
Project
Full/Part Time
Rohit Parlapalli 03/2010 Thesis Full Time
Maxwell Miller 09/2010 Thesis Full Time
5) Member of Other M.S./Ph.D. Graduate Study Committees (All at the University of Cincinnati):
Student Name Degree Meeting/Review Date Advisor
Praveen Penmetsa M.S. M.S. Project 11/20/03 Dr. K. Vemaganti
Ravindra Uplenchwar M.S. M.S. Project 8/5/03 Dr. K. Vemaganti
Yong Zhang M.S. Thesis Defense 5/19/04 Dr. R. Houston
Nilesh Billade M.S. Thesis Defense 5/19/04 Dr. K. Vemaganti
Onkar Singh M.S. Thesis Defense 8/16/04 Dr. K. Vemaganti
Rohit Kanaglekar M.S. Thesis Defense 1/26/2005 Dr. K. Vemaganti
Sampath Kumar Venkataswamy M.S. Thesis Defense 05/13/05 Dr. Y.J. Liu
Mihir Phadke M.S. Thesis Defense 6/27/05 Dr. E. Berger
Kalyana Vutukuri M.S. M.S. Project 10/19/05 Dr. Y.J. Liu
Dhanesh M. Purekar M.S. Thesis Defense 11/7/05 Dr. R. Allemang
Krishna Chinta M.S. M.S. Project 12/14/05 Dr. Y.J. Liu
Shrikant Pattnaik M.S. Thesis Defense 05/12/06 Dr. J. Kim
Jie Zhu M.S. M.S. Project 08/10/06 Dr. Y. J. Liu
Milind Bapat M.S. Thesis Defense 08/26/06 Dr. Y.J. Liu
Nolita Davis M.S. M.S. Project 10/27/06 Dr. R. Rost
Esra Roan Ph.D. Thesis Defense 04/11/07 Dr. K. Vemaganti
Shadi Balawi Ph.D. Thesis Defense 05/14/07 Dr. J. Abot
Liang Shen Ph.D. Thesis Defense 08/21/07 Dr. Y.J. Liu
Ashok Nageswaran M.S. Thesis Defense 11/12/08 Dr. B. Haridas
Mandar Kulkarni M.S. Thesis Defense 12/19/08 Dr. J. Abot
Sagar Bhamare M.S. Thesis Defense 07/23/09 Dr. Y.J. Liu
Hermanth Amarchinta Ph.D. Thesis Defense 06/10/10 Dr. R. Grandhi
Shrikant Pattnaik Ph.D. Thesis Defense 07/29/11 Dr. J. Kim
Jungyi Yang Ph.D. Thesis Defense 08/18/11 Dr. T. Lim
Amrinder Gill Ph.D. Thesis Defense 07/31/12 Dr. V. Vasudevan
Vibhor Chaswal Ph.D. Thesis Defense 12/20/12 Dr. V. Vasudevan
6) Awards and Honors Received by Students:
Peng He University of Cincinnati Travel Fellowship to attend 8th US Congress on
Computational Mechanics, 2005.
Qian-CV-2013 17
Shardool Chirputkar University of Cincinnati Summer Graduate Research Fellowship, 2007.
Travel Fellowship to attend 9th US Congress on Computational Mechanics, 2007.
Final list in Robert J. Melosh Medal Competition, 2009.
(http://www.cee.duke.edu/melosh)
Sagar Bhamare University of Cincinnati Summer Graduate Research Fellowship, 2010.
Travel Fellowship to attend 2012 NU Summer Workshop on Computational
Science and Engineering, 2012
Wenwei Jiang University of Cincinnati Summer Graduate Research Fellowship, 2012.
c. Undergraduate Advising
Faculty mentor for 2005 UC Women In Science and Engineering (WISE) program.
Faculty mentor for Research Experience for Undergraduate (REU) program supported
by National Science Foundation (2005,2006).
Faculty Advisor for Class 2007 in mechanical engineering.
d. Teaching Workshop Completed
UC Grant Writer’s workshop, 2004, 2005.
NSF Summer Institute on nanomechanics and materials, NSF, Northwestern University,
Evanston, Illinois. 2005, 2006, 2007, 2010.
Hughes-Belytschko short course on nonlinear finite element analysis, December 4-8,
2000, San Diego, California.
e. Postdoc Advising
Dr. Zhong Zhou, postdoc research associate
Mr. Huafeng Ding, visiting scholar from Chongqing University.
Qian-CV-2013 18
4. Service and Professional Activities
a. Membership in Honorary/Professional Societies
USACM (U.S. Association for Computational Mechanics): Member since 2003.
ASME (American Society of Mechanical Engineering): Member since 2008.
b. Editorial/Review Board Member and Conference Symposium/Session Organizer/Chair
Assistant Editor, Journal of Computational Mechanics, 2012-.
Co-organizer of the symposium in multiscale multiphysics modeling of materials as part of
the ASME IMECE conference 2008, 2009, 2010, 2011, 2012.
Co-organizer of the10th
US congress on Computational Mechanics held in Columbus, Ohio
in 2009.
Guest Editor for special issue of International Journal for Multiscale Computational
Engineering on “Advances in Multiscale and Multiphysics methods”, 2009.
Guest Editor for special issue of Computational Mechanics on “Multiscale Methods and
Applications to Nano- and Bio- Mechanics and Materials”, 2008.
Guest Editor for special issue of Computer Methods in Applied Mechanics and Engineering
(CMAME) on “Multiple scale methods for nanoscale mechanics and materials”, 2004.
Main organizer of the symposium on “Multiscale Method and Application to Nano- and
Bio- Mechanics (4 sessions)”, 9th
US National Congress on Computational Mechanics, San
Francisco, CA, July 22-26, 2007.
Main organizer of the symposium on “Multiscale Nano- and Bio- Mechanics and Materials”
(8 sessions), 7th
World Congress in Computational Mechanics, LA, USA, July 16-22, 2006.
Main organizer of the symposium on “Multiple Scale Analysis and its Application to
Nanoscale Mechanics and Materials” (9 sessions), 8th
US National Congress on
Computational Mechanics, Austin, TX, July 24-28, 2005.
Main organizer of the symposium on “Computational Nano mechanics and Materials” (7
sessions), 6th
World Congress on Computational Mechanics, Beijing, China, September 5-
10, 2004.
Main organizer of the symposium on “Multiple Scale Analysis and its Application to
Nanoscale Mechanics and Materials” (5 sessions), 7th
US National Congress on
Computational Mechanics, Albuquerque, NM, July 27-31, 2003.
Reviewer of the NSF NIRT program, 2005.
Reviewer of NSF unsolicited program, CMMI, 2007, 2010, 2011.
c. Reviewer of Papers for Technical Journals (2002-Present)
ASME Journal of Engineering Materials and Technology
Applied Physics Letter
Physical Review B
Nanotechnology
International Journal for Numerical Methods in Engineering
International Journal of Solids and Structures
Journal of Nanoscience and Nanotechnology
Composite Science and Technology
International Journal for Multiscale Computational Engineering
Computer Methods in Applied Mechanics and Engineering
Qian-CV-2013 19
Journal of Physics-Condensed Matter
Computational Mechanics
d. Service in the University
At the University of Texas at Dallas
Member of the Faculty Search Committee in Mechanical Engineering Department.
At the University of Cincinnati
Director of Graduate Study for Mechanical Engineering program
Responsible for graduate student recruiting, admission, orientation, awarding of
fellowships and assignment to academic advisors.
Review of student’s program of study, credit hour requirement and certify for degrees
and graduation.
Coordinate graduate seminars and qualifying exams for Ph.D. students.
University Research Council subcommittee on physical science and engineering (2005-
2008)
Review internal proposals for various research programs and provide recommendations
for funding.
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